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The experiment was conducted in Post Graduate Seed Testing Laboratory, Department of Genetics and Plant Breeding, Sam Higginbottom University of Agriculture, Technology and Sciences, Prayagraj (U.P.) during Rabi season 2018, in order to find out the best priming method for chickpea (Kabuli). For different organic and inorganic viz.., T0 -Untreated (control), T1 -DH2O-(6hrs), T2 - PEG-5%(6hrs), T3 - PEG-10% (6hrs), T4 - PEG-10% (6hrs), T5 - NaCl-5% (6hrs), T6 -NaCl-7% (6hrs), T7 -NaCl-9% (6hrs), T8 - CaCl2 -1% (6hrs), T9 - CaCl2 -2% (6hrs), T10- Neem Leaf Extract-5% (6hrs) and T11- Tulsi Leaf Extract-5%(6hrs) were taken the seeds were hydrated for their respective time duration and then dried for 6hrs in shade. It was found that, among all these priming treatments showed significance difference was observed with the control while highest germination percentage, Field emergence, Days to 50% flowering, Days to 50% maturity, Number of primary branches, Number of pods per plant, Pod weight(g), Seed yield per plant(g), Biological yield, Harvesting index and seedling character parameters viz.., Germination percentage (%), Root length (cm), Shoot length (cm), Seedling length (cm), Seedling fresh weight (gm), Seedling dry weight (gm), Vigour index-I, Vigour index –II were observed for seeds treated with PEG15(6hrs) Plant height showed nonsignificant difference with the control. This study helps to improve the seedling character, growth and seed yield with the help of seed priming treatments which are effective, economic, non-toxic and eco-friendly sources.
Int.J.Curr.Microbiol.App.Sci (2019) 8(8): 2860-2864 International Journal of Current Microbiology and Applied Sciences ISSN: 2319-7706 Volume Number 08 (2019) Journal homepage: http://www.ijcmas.com Original Research Article https://doi.org/10.20546/ijcmas.2019.808.329 Effect of Priming on Germination and Vigour Parameters on Kabuli Chickpea (Cicer kabulium L.) M Ramesh Chandra*, Prashant Kumar Rai, Rupesh Kumar and Bineeta M Bara Department of Genetics and Plant Breeding, Naini Agricultural Institute, Sam Higginbottom University of Agriculture, Technology and Sciences, Prayagraj, 211007 U P., India *Corresponding author ABSTRACT Keywords Chickpea (Kabuli), Priming methods, Characters, Treatments Article Info Accepted: 22 July 2019 Available Online: 10 August 2019 The experiment was conducted in Post Graduate Seed Testing Laboratory, Department of Genetics and Plant Breeding, Sam Higginbottom University of Agriculture, Technology and Sciences, Prayagraj (U.P.) during Rabi season 2018, in order to find out the best priming method for chickpea (Kabuli) For different organic and inorganic viz , T0-Untreated (control), T1-DH2O-(6hrs), T2PEG-5%(6hrs), T3- PEG-10% (6hrs), T4- PEG-10% (6hrs), T5- NaCl-5% (6hrs), T6-NaCl-7% (6hrs), T7-NaCl-9% (6hrs), T8- CaCl2-1% (6hrs), T9- CaCl2-2% (6hrs), T10- Neem Leaf Extract-5% (6hrs) and T11- Tulsi Leaf Extract-5%(6hrs) were taken the seeds were hydrated for their respective time duration and then dried for 6hrs in shade It was found that, among all these priming treatments showed significance difference was observed with the control while highest germination percentage, Field emergence, Days to 50% flowering, Days to 50% maturity, Number of primary branches, Number of pods per plant, Pod weight(g), Seed yield per plant(g), Biological yield, Harvesting index and seedling character parameters viz , Germination percentage (%), Root length (cm), Shoot length (cm), Seedling length (cm), Seedling fresh weight (gm), Seedling dry weight (gm), Vigour index-I, Vigour index –II were observed for seeds treated with PEG15(6hrs) Plant height showed nonsignificant difference with the control This study helps to improve the seedling character, growth and seed yield with the help of seed priming treatments which are effective, economic, non-toxic and eco-friendly sources higher as any of the legume except groundnut and lupine seeds Introduction Pulses are unique crops having in-built mechanism to trap atmospheric nitrogen in their root nodules and restore soil fertility They are capable of thriving in harsh and fragile environments Pulses are richest and cheapest source of protein and form major ingredient of diet of vegetarian population of the country This contains 20 to 25 % proteins as against to 15 % in cereals Chickpea is rich source of proteins, carbohydrates, minerals and possesses 358 calories which is Chickpea, a member of Fabaceae, is a selfpollinated true diploid (2 n = x = 16) It is an ancient cool season food legume crop cultivated by man and has been found in Middle Eastern archaeological sites dated 7500–6800 BC (Zohary and Hopf, 2000) Chickpea is a major and cheap source of protein, predominantly consumed in the form of whole grain or dhal, sprouted grain, green 2860 Int.J.Curr.Microbiol.App.Sci (2019) 8(8): 2860-2864 or matured dry seeds It has highly digestible protein (21.1%), carbohydrates (61.5%) and fats (4.5%) and also rich in fiber, minerals and β-carotene There are two types of chickpea viz., desi and Kabuli grown in the world Out of two types of cultivars grown in India, Kabuli type occupies nearly 15 per cent and desi types occupy about 85 per cent of area Kabuli chickpea is having good market value compared to desi chickpea but requires more specific environmental condition and greater attention to crop management than desi chickpea to produce a quality seed The Kabuli chickpea variety is bold seededness, require more soil moisture for emergence, having erect growth habit and grows up to 50 to 60 cm, produces 48 to 55 pods per plant, matures in 95-110 days and moderate resistant to wilt reaction About 90 per cent of the chickpea is cultivated under rainfed condition hence they frequently experience terminal drought stress resulting in low and unstable yields (Toker et al., 2007) Kabuli group It is the group known as “ram’s head” Most of today chickpeas are included within this group They are varieties mainly grown in Europe, Central and South America It corresponds to the first chickpea cultivated across the Medit The main objective includes to study the effect of different priming treatment on growth and yield attributing traits of chickpea And to determine the effect of different priming treatment on Seedling characters for Kabuli chickpea Also to find out the suitable priming treatment for Kabuli chickpea Department of Genetics and Plant Breeding, Sam Higginbottom University of Agriculture, Technology and Sciences, Prayagraj (U.P.), in order to find out the best priming method for chickpea (Kabuli) 1control and 10 treatments viz , T0-Untreated (control), T1-DH2O-(6hrs), T2- PEG-5%(6hrs), T3- PEG-10% (6hrs), T4PEG-10% (6hrs), T5- NaCl-5% (6hrs), T6NaCl-7% (6hrs), T7- NaCl-9% (6hrs), T8CaCl2-1% (6hrs), T9- CaCl2-2% (6hrs), T10Neem Leaf Extract-5% (6hrs) and T11- Tulsi Leaf Extract-5%(6hrs) are used to find best priming technique for chick pea (Kabuli), seeds were placed on paper towel (Between paper Method for germination percentage Yield and yield attributing characteristics Plant height (cm), number of pods of ten randomly selected plants (cm) Number of Primary branches, Number of pods per plant, Pod weight (g), Seed yield per plant (g) of each treatment and replication were recorded at maturity Weight of total quantity of harvested seeds per plot for each treatment and replication was recorded and the yield per hectare was calculated and expressed Seed quality parameters For seed quality assessment germination test was conducted using the paper towel method as prescribed in ISTA rules (1996), by providing the optimum conditions The germination counts was made on normal seedlings and expressed in per cent Vigour indices were computed by adopting the following formula as suggested by Abdul Baki and Anderson (1973) and expressed in number Vigour Index I = Germination (%) X Seedling length (cm) Vigour Index II = Germination (%) X Seedling dry weight (g) Materials and Methods Results and Discussion The experiment was conducted in post graduate Seed Testing Laboratory, It is evident from the present investigation that 2861 Int.J.Curr.Microbiol.App.Sci (2019) 8(8): 2860-2864 different types of treatments viz., DH2O, PEG5%, PEG-10%, PEG-15%, NaCl-5%, NaCl7%, NaCl-9%, CaCl2-1%, CaCl2-2%, Neem leaf Extract-5%, and Tulsi leaf Extract-5% Have differential positive effect on the growth attributes such as plant height, number of branches, and number of pods per plant In general, most of the treatments were found effective in increasing the plant growth at all stages significantly as compared to control The maximum growth was observed in seeds treated with T4 (PEG-15%) and minimum recorded in T0 (control) In the yield parameters there number of pods per plant, biological yield and seed yield per plant were recorded best in treatment T4 (PEG-15%) and least was seen in T0 (control) For days to maturity the minimum time taken was seen in seeds treated with T4 (PEG-15%) and maximum was observed in T0 (control) Table.1 Mean performance of Field Emergence, Days to 50% maturity, days to 50% Flowering, Plant height, Pod weight (g), Primary branches, No of pods per plant, Seed yield per plant, Biological yield, Harvesting index for Kabuli chickpea (Cicer kabulium L.) S No Treatm ents Field Emerge nce Plant height Days to 50% flowering Days to 50% maturity Primary branch Pod weight Seed yield per plant 6.57 Biologi cal Yield Harve st Index 5.98 No pods per plant 31.33 T0 74.81 32.19 71.67 99.67 2.13 20.93 26.67 T1 88.15 32.97 69.00 97.00 2.87 9.99 36.87 8.33 32.98 25.28 T2 85.93 32.64 69.33 97.33 2.87 9.37 34.67 8.05 32.39 24.88 T3 93.33 32.93 67.67 65.67 3.27 11.69 38.93 9.75 38.30 25.44 T4 97.04 33.92 65.00 93.00 3.73 13.32 40.40 11.63 43.72 31.42 T5 94.07 34.00 66.00 94.00 3.47 12.22 40.07 10.26 38.76 30.42 T6 75.56 31.76 71.33 99.33 2.27 7.62 32.53 7.04 23.25 26.44 T7 78.52 32.39 70.67 98.67 2.53 7.77 33.47 7.20 27.45 26.35 T8 80.74 32.55 70.33 98.33 2.67 8.53 35.00 7.59 29.26 24.45 10 T9 82.96 32.39 69.33 97.33 2.67 8.98 34.93 7.96 31.29 25.43 11 T10 88.89 32.33 68.67 96.67 3.00 10.76 37.33 9.06 33.57 28.05 12 T11 91.11 32.40 68.33 96.33 3.07 11.03 38.27 9.28 34.05 28.28 Grand mean 85.93 32.70 68.94 96.94 2.88 9.77 36.15 15.80 59.38 26.93 SEm± 0.95 0.46 0.67 0.67 0.07 0.48 0.90 0.42 0.84 1.25 CD 2.80 1.36 1.97 1.97 0.21 1.40 2.64 1.22 2.48 3.65 CV% 1.92 2.40 1.69 1.20 4.35 8.47 4.31 8.40 4.55 8.00 2862 Int.J.Curr.Microbiol.App.Sci (2019) 8(8): 2860-2864 Table.2 Mean performance of germination (%), Root length, Shoot length, Seedling length, Seedling fresh weight, Seedling dry weight, Vigour Index I, Vigour Index II of Kabuli chickpea (Cicer kabulium L.) S NO 10 11 12 Treatments T0 T1 T2 T3 T4 T5 T6 T7 T8 T9 T10 T11 Grand mean SED CV CD (5%) Germination percentage Root length(cm) Shoot length(cm) Seedling length(cm) 86.50 87.75 92.50 94.50 95.50 93.00 90.00 87.50 94.00 90.50 90.25 89.75 90.98 2.05 3.18 4.24 9.07 15.05 13.69 18.33 22.30 20.31 10.68 11.99 12.12 13.13 16.70 17.37 15.06 0.25 2.39 0.53 5.00 8.51 7.13 10.77 13.64 11.70 5.34 6.00 6.24 6.79 9.13 10.06 8.36 0.37 6.18 0.76 14.06 23.56 20.83 29.11 35.94 32.00 16.02 17.99 18.36 19.92 25.82 27.42 23.42 0.55 3.30 1.13 Seed Quality Parameters In terms of seed quality parameters the germination %, root length, shoot length, Seedling Length (cm), Seedling Fresh Weight (g), Seedling Dry Weight (g), Vigor Index I & Vigor Index II The treatment T4 (PEG-15%) recorded a maximum and minimum was shown in T0 (control) Based on the present investigation it was concluded that the seeds of chickpea were treated with Polyethylene glycol [PEG] 15%(6hours)-T4 was found suitable in terms of Growth, Seed yield and quality parameters of Chickpea, followed by treatment T5 Sodium chloride [NaCl] 1%(6hrs) and lowest was observed in treatment T0 (Control) in terms of seed yield Acknowledgement Authors are thankful to all the members of Department of Genetics and Plant Breeding, Seedling fresh weight(g) 6.00 7.88 7.03 10.23 12.38 11.60 6.40 6.73 7.00 6.88 8.55 9.65 8.36 0.47 8.31 1.02 Seedling dry weight(g) 2.10 3.45 2.65 5.20 6.83 6.23 2.40 2.60 2.83 2.58 3.95 4.90 3.81 0.89 32.95 1.83 Vigour Index I Vigour Index II 1216.72 2067.72 1926.07 2751.48 3432.75 2978.03 1440.43 1573.59 1725.00 1802.67 2330.30 2461.14 2142.16 77.87 5.14 160.96 181.90 304.33 245.10 489.80 652.80 579.75 214.10 227.28 266.43 231.40 356.15 440.83 349.15 82.75 33.52 171.05 Sam Higginbottom University of Agriculture, Technology and sciences, Prayagraj, (U.P), and India For providing necessary facilities, encouragement and support References Amarnath, B.H., Chaurasia, A.K., Arvind, K (2013) Effect of priming with botanicals and animal waste on germination and seedling vigour in sorghum (Sorghum bicolor L.) seeds Advances in Applied Science Research, 2015, 6(10): 73-77 Andoh, H and kobata, T (2002) Effect of seed hardening on the seedling emergence and alpha-amylase activity in the grains of wheat and rice sown in dry soil Japanese journal of Crop science, 71: 220-225 Bradford, K.J., Steiner, J.J and Trawatha, S.E (2002) Seed priming influence on germination and emergence of pepper seed lots Crop Science, 30: 718-721 2863 Int.J.Curr.Microbiol.App.Sci (2019) 8(8): 2860-2864 Conrath, U., Thulke, O., Ketz, V., Schwindling S and Kohler, A (2001) Priming as mechanism in induced systemic resistance of plants European Journal of plant pathology, 107: 113119 Deepti, P., Swati, N (2015) Effect of Seed Priming with Some Plant Leaf Extract on Seedling Growth Characteristics and Root Rot Disease in Tomato International Journal of Agriculture System (IJAS) Vol (4) iss (1) Ewa, K., and Justyna, P G (2003) Effects of matriconditioning on onion seed germination, seedling emergence and associated physical and metabolic events Plant Growth Regulation, 41(3): 269-278 Fisher, R.A and Yates, F (1963) Statistical Table for Biological Agricultural and Medical Research Oliver and Boyd Publishing Company Private Limited., Edinburgh 46-63 Gunasekar, J., Kamaraj, A., Padmavathi, S (2017) Effect of pre-sowing seed treatment using botanical extract on growth and yield characters in black gram Plant Archives Vol 17 No 2, 1013-1016 Harris, D., Raghuwanshl, B.S., Gangwar, J.S., Singh, S.C., Joshi, K.D., Rashld, A and Hollington, P.A., (2001), Participatory evaluation by farmers of on-farm seed priming in wheat in India, Nepal and Pakistan Experimental Agriculture, 37 (3): 403-415 Kaur, S., Gupta, A K and Kaur, N (2003) Priming of chickpea seeds with water and mannitol overcomes the effect of salt stress on seedling growth ICPN, 10: 18- 19 Khan, A., Khalil, S.K., Khan, S.and Afzal, A (2005) Priming affects crop stand of chickpea Sarhad Journal of Agriculture 2005; 21(4): 535-538 Prashant Kumar Rai, Girjesh Kumar and K.K Singh (2011) Influence of packaging material and storage time on seed germination and chromosome biology of inbred line of maize (Zea mays L.) 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Int.J.Curr.Microbiol.App.Sci 8(08): 2860-2864 doi: https://doi.org/10.20546/ijcmas.2019.808.329 2864 ... article: Ramesh Chandra M., Prashant Kumar Rai, Rupesh Kumar and Bineeta M Bara 2019 Effect of Priming on Germination and Vigour Parameters on Kabuli Chickpea (Cicer kabulium L.) Int.J.Curr.Microbiol.App.Sci... Effect of priming with botanicals and animal waste on germination and seedling vigour in sorghum (Sorghum bicolor L.) seeds Advances in Applied Science Research, 2015, 6(10): 73-77 Andoh, H and. .. performance of germination (%), Root length, Shoot length, Seedling length, Seedling fresh weight, Seedling dry weight, Vigour Index I, Vigour Index II of Kabuli chickpea (Cicer kabulium L.) S NO